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Enzyme
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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The addition of 12-O-tetradecanoylphorbol-13-acetate (TPA) markedly enhanced cAMP formation induced by carbacyclin, a stable prostacyclin analogue, in cultured mast cells (
IC2
cells), but did not enhance basal or NaF plus AlCl3-induced cAMP formation. On the other hand, W-7, a calmodulin (CaM) inhibitor, almost completely suppressed the enhancing activity of TPA, suggesting the involvement of CaM in the enhancement by TPA of carbacyclin-induced cAMP formation. The enhancing activity of TPA disappeared in TPA-treated cells permeabilized with saponin in the presence of Ca2+, but reconstitution with CaM in the permeable cells resulted in remarkable restoration of the action of TPA. On the other hand, TPA treatment induced the phosphorylation and translocation of myristoylated alanine-rich C kinase substrate (MARCKS) from the membrane to the cytosol. Exogenously added protein kinase C (PKC) also phosphorylated MARCKS and induced its translocation in the cells permeabilized with saponin. Whereas the addition of CaM did not enhance the carbacyclin-stimulated GTPase activity and
adenylate cyclase
activity in the control permeable cells, in which MARCKS bound to the membrane, CaM markedly enhanced those activities in the PKC-treated permeable cells, which lost endogenous membrane-bound MARCKS. When MARCKS was added to the PKC-treated permeable cells, MARCKS bound to the membrane and inhibited the effects of CaM. These results suggest that activation of PKC enhances the prostacyclin-activated
adenylate cyclase
through a CaM/MARCKS system.
...
PMID:Enhancement by protein kinase C of prostacyclin receptor-mediated activation of adenylate cyclase through a calmodulin/myristoylated alanine-rich C kinase substrate (MARCKS) system in IC2 mast cells. 838 May 84
The prostaglandin E2 (PGE(2)) EP2 receptor (EP2R) type is G protein coupled (GPCR) and links to Galphas. Through this receptor PGE(2) activates cAMP production. The bradykinin (BK) B2 receptor (BKB2R) is also a GPCR but links to Galphaq and Galphai and does not activate cAMP production in response to bradykinin. In an attempt to convert the BKB2R into a Galphas-linked
adenylate cyclase
-activating receptor we proceeded to make global and discrete motif replacements of the intracellular (IC) face of the BKB2R with the corresponding regions of the human EP2R. With this approach we produced hybrid receptors which, when stably transfected into wild type (WT) Rat-1 cells, bound BK but produced cAMP. Replacement of the second loop (
IC2
), third loop (IC3), the entire C terminus, and the distal C terminus resulted in receptors which bound BK. However, only the
IC2
and IC3 exchanges resulted in cAMP-producing receptors. Of these two regions, the
IC2
exchange was by far the better cAMP-generating receptor, producing cAMP at approximately 6.6-fold above WT BKB2R or approximately one fourth the amount produced by WT EP2R-transfected Rat-1 cells. Both human and rat EP2R and human beta2-adrenergic receptor exchanges of the
IC2
produced equal quantities of cAMP. Focusing on the rBKB2R/hEP2R
IC2
chimeras, the region consisting of residues 136-147 (BKB2R residue numbering) proved to contain a cAMP-generating motif. Within this region, the proximal six amino acids from the EP2R (HPYFYQ) at position 136-141 proved crucial for cAMP production (10-fold over WT BKB2R). The distal part of this region, the six residues at 142-147, played no role in cAMP production. On the other hand, the ALV motif of the BKB2R
IC2
, residues 133-135, proved important with respect to phosphatydilinositol (PI) turnover. Replacing the entire
IC2
of BKB2R resulted in poor PI turnover, while including the AVL of BKB2R retained approximately half of the WT PI turnover. With respect to receptor uptake, all the
IC2
mutants endocytosed as WT BKB2R (60% in 1h). However, the exchange of the distal and the whole C termini resulted in a marked drop in endocytosis (30% in 1h). These results demonstrate that the construction of a cAMP-producing BKB2/EP2 receptor hybrid is possible, with the
IC2
region distal to DRYLALV proving important to Galphas linkage and the LALV motif within the
IC2
of BKB2R and the region proximal to it proving important for Galphaq and Galphai linkage. Additionally, our results confirm the importance of the distal C terminus in determining receptor uptake.
...
PMID:Chimeric exchanges within the bradykinin B2 receptor intracellular face with the prostaglandin EP2 receptor as the donor: importance of the second intracellular loop for cAMP synthesis. 1280 12
